(19)
(11) EP 3 713 291 B1

(12) EUROPEAN PATENT SPECIFICATION

(45) Mention of the grant of the patent:
03.01.2024 Bulletin 2024/01

(21) Application number: 18879747.6

(22) Date of filing: 09.11.2018
(51) International Patent Classification (IPC): 
H04W 72/0453(2023.01)
H04W 72/23(2023.01)
(52) Cooperative Patent Classification (CPC):
H04W 72/0453; H04W 72/23
(86) International application number:
PCT/CN2018/114919
(87) International publication number:
WO 2019/096076 (23.05.2019 Gazette 2019/21)

(54)

RESOURCE ALLOCATION INDICATION AND RECEIVING METHODS AND DEVICES

RESSOURCENZUWEISUNGSANZEIGE- UND -EMPFANGSVERFAHREN UND -VORRICHTUNGEN

PROCÉDÉS ET DISPOSITIFS D'INDICATION ET DE RÉCEPTION D'ATTRIBUTION DE RESSOURCES


(84) Designated Contracting States:
AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MK MT NL NO PL PT RO RS SE SI SK SM TR

(30) Priority: 17.11.2017 CN 201711147184

(43) Date of publication of application:
23.09.2020 Bulletin 2020/39

(73) Proprietor: ZTE Corporation
Shenzhen, Guangdong 518057 (CN)

(72) Inventors:
  • LI, Jian
    Shenzhen, Guangdong 518057 (CN)
  • HAO, Peng
    Shenzhen, Guangdong 518057 (CN)
  • ZUO, Zhisong
    Shenzhen, Guangdong 518057 (CN)

(74) Representative: Brunazzi, Stefano 
Jacobacci & Partners S.p.A. Via Senato, 8
20121 Milano
20121 Milano (IT)


(56) References cited: : 
CN-A- 102 017 483
US-A1- 2015 036 618
CN-A- 103 298 117
   
  • INTERDIGITAL ET AL: "On remaining details of data resource allocation", 3GPP DRAFT; R1-1718494 ON REMAINING DETAILS OF DATA RESOURCE ALLOCATION, 3RD GENERATION PARTNERSHIP PROJECT (3GPP), MOBILE COMPETENCE CENTRE ; 650, ROUTE DES LUCIOLES ; F-06921 SOPHIA-ANTIPOLIS CEDEX , vol. RAN WG1, no. Prague, CZ; 20171009 - 20171013 8 October 2017 (2017-10-08), XP051341676, Retrieved from the Internet: URL:http://www.3gpp.org/ftp/Meetings_3GPP_ SYNC/RAN1/Docs/ [retrieved on 2017-10-08]
  • NEC: "DL/UL RA schemes for NR", 3GPP DRAFT; R1-1716230 DL-UL RA SCHEMES FOR NR_V1E, 3RD GENERATION PARTNERSHIP PROJECT (3GPP), MOBILE COMPETENCE CENTRE ; 650, ROUTE DES LUCIOLES ; F-06921 SOPHIA-ANTIPOLIS CEDEX ; FRANCE , vol. RAN WG1, no. Nagoya, Japan; 20170918 - 20170921 17 September 2017 (2017-09-17), XP051339687, Retrieved from the Internet: URL:http://www.3gpp.org/ftp/Meetings_3GPP_ SYNC/RAN1/Docs/ [retrieved on 2017-09-17]
  • CATT: "NR DL/UL frequency domain resource allocation", 3GPP DRAFT; R1-1712410, 3RD GENERATION PARTNERSHIP PROJECT (3GPP), MOBILE COMPETENCE CENTRE ; 650, ROUTE DES LUCIOLES ; F-06921 SOPHIA-ANTIPOLIS CEDEX ; FRANCE , vol. RAN WG1, no. Prague, Czechia; 20170821 - 20170825 20 August 2017 (2017-08-20), XP051315226, Retrieved from the Internet: URL:http://www.3gpp.org/ftp/Meetings_3GPP_ SYNC/RAN1/Docs/ [retrieved on 2017-08-20]
  • "3rd Generation Partnership Project; Technical Specification Group Radio Access Network; NR; Physical layer procedures for data (Release 15)", 3GPP DRAFT; R1-1719227, 3RD GENERATION PARTNERSHIP PROJECT (3GPP), MOBILE COMPETENCE CENTRE ; 650, ROUTE DES LUCIOLES ; F-06921 SOPHIA-ANTIPOLIS CEDEX ; FRANCE , 14 November 2017 (2017-11-14), XP051368746, Retrieved from the Internet: URL:http://www.3gpp.org/ftp/tsg%5Fran/WG1% 5FRL1/TSGR1%5F90b/Docs/ [retrieved on 2017-11-14]
  • "Bandwidth part configuration and frequency resource allocation", 3GPP Draft; R1-1710164, vol. RAN WG1, 27 June 2017 (2017-06-27), - 30 June 2017 (2017-06-30), XP051299388,
  • CATT: "PDSCH and PUSCH Resource Allocation", 3GPP TSG RAN WG1 Meeting 90bis R1-1717833, vol. RAN WG1, 9 October 2017 (2017-10-09), - 13 October 2017 (2017-10-13), XP051341018,
  • FUJITSU: "Discussion on Frequency Domain Resource Allocation", 3GPP TSG RAN WG1 Meeting 90bis R1-1717718, vol. RAN WG1, 9 October 2017 (2017-10-09), - 13 October 2017 (2017-10-13), XP051340903,
  • VIVO: "On DL/UL Resource Allocation", 3GPP TSG RAN WG1 Meeting NR#3 Rl-1715642, vol. RAN WG1, 18 September 2017 (2017-09-18), - 21 September 2017 (2017-09-21), XP051339108,
   
Note: Within nine months from the publication of the mention of the grant of the European patent, any person may give notice to the European Patent Office of opposition to the European patent granted. Notice of opposition shall be filed in a written reasoned statement. It shall not be deemed to have been filed until the opposition fee has been paid. (Art. 99(1) European Patent Convention).


Description

Cross-Reference to Related Applications



[0001] The present application is filed based upon and claims priority to Chinese Patent Application No. 201711147184.4, filed on November 17, 2017.

Technical Field



[0002] The present application relates to the field of communication, and particularly to resource allocation indication and receiving methods and devices.

Background



[0003] Along with the development of wireless communication technologies and increase of communication requirements of users, for meeting requirements on higher, faster and up-to-date communication, 5th Generation (5G) has become a trend of network development in the future.

[0004] A 5G communication system is considered to be implemented in a higher and broader band (for example, above 3GHz) to achieve a higher data rate. A larger Bandwidth (BW) may exceed a maximum BW supported by User Equipment (UE), and a New Radio Access Technology (New RAT, also abbreviated as NR) introduces Bandwidth Part (BWP) to solve this problem. In addition, a conclusion that different BWs should correspond to different Resource Block Group (RBG) sizes has been made in a present standard, but specific RBG size values are not determined, as shown in Table 1.
Table 1
  Config 1 Config 2
X0-X1 RBs RBG size 1 RBG size 2
X1+1-X2 RBs RBG size 3 RBG size 4
... ... ...


[0005] Different RBG size values may make sizes of resource allocation regions different for different Downlink Control Information (DCI), and consequently, DCI blind detection complexity may be increased.

[0006] For the problem of relatively high DCI blind detection complexity caused by adoption of resource allocation regions in different sizes for BWPs with different BWs in the related art, there is yet no effective solution proposed.

[0007] Document INTERDIGITAL ET AL: "On remaining details of data resource allocation",3GPP DRAFT; R1-1718494 (2017-10-08) discloses an example of the prior art.

[0008] Document NEC: "DL/UL RA schemes for NR",3GPP DRAFT; R1-1716230 (2017-09-17) discloses another example of the prior art.

[0009] Document CATT: "NR DL/UL frequency domain resource allocation",3GPP DRAFT; R1-1712410 (2017-08-20) discloses another example of the prior art.

[0010] Document "Bandwidth part configuration and frequency resource allocation",3GPP Draft; R1-1710164 (2017-06-27) discloses another example of the prior art.

Summary



[0011] Embodiments of the present application provide resource allocation indication and receiving methods and devices, which may at least solve the problem of relatively high DCI blind detection complexity caused by adoption of resource allocation regions in different sizes for BWPs with different BWs.

[0012] The invention relates to a resource allocation method, a resource allocation indication receiving method , a resource allocation indication device and a resource allocation indication receiving device as defined in the appended independent claims. Embodiments representing particular realisations of the invention are defined in the appended dependent claims.

[0013] Through the technical solutions of the embodiments of the present application, the BS sends the first indication information, wherein the first indication information is configured to indicate the activated BWP message and the activated BWP message at least includes the BWP BW information; and the BS sends the second indication information, wherein the second indication information is configured to indicate the one or more groups of first-level RBG sizes, each group of first-level RBG sizes includes the multiple first-level RBG sizes, each first-level RBG size corresponds to different BWP BWs and there is a corresponding relationship between the first-level RBG size and different BWP BWs. That is, a corresponding relationship between a BW range and a value of an RBG size is set, so that it is ensured that valid bits in resource allocation regions of different BWs are approximate, the problem of relatively high DCI blind detection complexity caused by adoption of resource allocation regions in different sizes for BWPs with different BWs in the related art is further solved, and the technical effect of reducing the DCI message blind detection complexity is achieved.

Brief Description of the Drawings



[0014] The drawings described here are adopted to provide a deeper understanding to the present disclosure and form a part of the present application. Schematic examples and descriptions thereof are adopted. In the drawings:

Fig. 1 is a flowchart of a resource allocation indication method;

Fig. 2 is a flowchart of a resource allocation indication receiving method;

Fig. 3 is a first flowchart of an exemplary resource allocation indication method;

Fig. 4 is a second flowchart of an exemplary resource allocation indication method;

Fig. 5 is a third flowchart of an exemplary resource allocation indication method;

Fig. 6 is a structure block diagram of a resource allocation indication device; and

Fig. 7 is a structure block diagram of a resource allocation indication receiving device.


Detailed Description of the Embodiments



[0015] The present invention will be described below with reference to the drawings and in combination with the embodiments in detail. It is to be noted that the following disclosure of different examples may be combined without conflicts.

[0016] It is to be noted that the terms like "first" and "second" in the specification, claims and accompanying drawings of the present invention are used for differentiating the similar objects, but do not have to describe a specific order or a sequence.

[0017] A non-claimed embodiment provides a resource allocation indication method. Fig. 1 is a flowchart of a resource allocation indication method according to an embodiment of the present application. As shown in Fig. 1, the flow includes the following operations.

[0018] In S102, a BS sends first indication information, wherein the first indication information is configured to indicate an activated BWP message and the activated BWP message at least includes BWP BW information.

[0019] In S104, the BS sends second indication information, wherein the second indication information is configured to indicate one or more groups of first-level RBG sizes, each group of first-level RBG sizes includes multiple first-level RBG sizes and each first-level RBG size corresponds to different BWP BWs.

[0020] There is a corresponding relationship between the first-level RBG size and different BWP BWs.

[0021] Through S102 to S104, a corresponding relationship between a BW range and a value of an RBG size is set, so that it is ensured that valid bits in resource allocation regions of different BWs are approximate, the problem of relatively high DCI blind detection complexity caused by adoption of resource allocation regions in different sizes for BWPs with different BWs in the related art is further solved, and the technical effect of reducing the DCI message blind detection complexity is achieved.

[0022] In some exemplary embodiments, S102 and S104 may be interchanged, namely S104 may be executed before execution of S102.

[0023] A non-claimed embodiment also provides a resource allocation indication receiving method. Fig. 2 is a flowchart of a resource allocation indication receiving method according to an embodiment of the present application. As shown in Fig. 2, the flow includes the following operations.

[0024] In S202, UE receives first indication information sent by a BS, wherein the first indication information is configured to indicate an activated BWP message and the activated BWP message at least includes BWP BW information.

[0025] In S204, the UE receives second indication information sent by the BS, wherein the second indication information is configured to indicate one or more groups of first-level RBG sizes, each group of first-level RBG sizes includes multiple first-level RBG sizes, and each first-level RBG size corresponds to different BWP BWs, wherein there is a corresponding relationship between the first-level RBG size and different BWP BWs.

[0026] Through S202 to S204, a corresponding relationship between a BW range and a value of an RBG size is received from the BS, so that it is ensured that valid bits in resource allocation regions of different BWs are approximate, the problem of relatively high DCI blind detection complexity caused by adoption of resource allocation regions in different sizes for BWPs with different BWs in the related art is further solved, and the technical effect of reducing the DCI message blind detection complexity is achieved.

[0027] In some exemplary embodiments, S202 and S204 may be interchanged, namely S204 may be executed before execution of S202.

[0028] The embodiment will be described below with examples in combination with exemplary embodiments.

Embodiment 1



[0029] This claimed embodiment provides a downlink resource allocation embodiment. As shown in Fig. 4, the following operations are included.

[0030] In S301, a BS sends to UE, first indication information and second indication information being included.

[0031] The first indication information is configured to indicate an activated BWP message, and the second indication information is configured to indicate one or more groups of first-level RBG sizes.

[0032] The activated BWP message at least includes BWP BW information. For example, the first indication information indicates that the UE has four activated BWPs, and BWs of the four activated BWPs correspond to 50, 100, 25 and 200 RBs respectively.

[0033] Each group of first-level RBG sizes in values of the one or more groups of RBG sizes includes multiple first-level RBG sizes, and each first-level RBG size corresponds to different BWP BWs.

[0034] In some exemplary embodiments, a corresponding relationship between the first-level RBG size and the corresponding BWP BW includes that: the first-level RBG size at least includes one of the following numerical values: 1, 2, 3, 4, 6, 8, 10, 11, 12 and 16.

[0035] When the value of the first-level RBG size is 1, a BWP BW range of an activated BWP is fewer than or equal to 31 RBs, or fewer than or equal to 26 RBs or fewer than or equal to 22 RBs. When the value of the first-level RBG size is 2, the BWP BW range of the activated BWP is 32 to 62 RBs, or 27 to 62 RBs, or 23 to 44 RBs. When the value of the first-level RBG size is 3, the BWP BW range of the activated BWP is 45 to 66 RBs. When the value of the first-level RBG size is 4, the BWP BW range of the activated BWP is 63 to 124 RBs, or 67 to 132 RBs. When the value of the first-level RBG size is 6, the BWP BW range of the activated BWP is 125 to 176 RBs, or 67 to 132 RBs. When the value of the first-level RBG size is 8, the BWP BW range of the activated BWP is 177 to 248 RBs, or 125 to 248 RBs, or 125 to 220 RBs, or 125 to 227 RBs. When the value of the first-level RBG size is 10, the BWP BW range of the activated BWP is 249 to 275 RBs, or 221 to 275 RBs, or 228 to 275 RBs. When the value of the first-level RBG size is 11, the BWP BW range of the activated BWP is 249 to 275 RBs. When the value of the first-level RBG size is 12, the BWP BW range of the activated BWP is 133 to 240 RBs. When the value of the first-level RBG size is 16, the BWP BW range of the activated BWP is 241 to 275 RBs.

[0036] For example, a group of first-level RBG sizes is indicated, as shown in Table 2.
Table 2 BWP BW vs. RGB size
BWP BW RBG size
1-31 RBs 1
32-62 RBs 2
63-124 RBs 4
125-176 RBs 6
177-248 RBs 8
249-275 RBs 10


[0037] In some exemplary embodiments, the activated BWP message further includes a subcarrier spacing and position information.

[0038] In some exemplary embodiments, the BS sends sixth indication information, wherein the sixth indication information is configured to indicate a second-level RBG size, applied to a resource allocation manner 0.

[0039] In some exemplary embodiments, the first indication information, the second indication information and the sixth indication information are sent through the RRC message.

[0040] In some exemplary embodiments, the first indication information and the second indication information may be configured and transmitted through different RRC messages.

[0041] In S302, the BS selects an activated BWP for transmitting downlink data based on a service characteristic of the UE, a load condition of the UE and UE capability, queries a table to determine a corresponding first-level RBG size based on the BWP, determines a resource allocation method, maps data and determines third indication information and fourth indication information.

[0042] In the claimed embodiments, the BS sends the third indication information configured to indicate the selected activated BWP; and the BS sends the fourth indication information configured to indicate resource allocation. The number of bits required by the fourth indication information under different activated BWPs is a fixed value.

[0043] For example, the third indication information indicates four activated BWPs through two bits, for example, 01 indicates the second activated BWP to be switched and/or used, the number of correspondingly used RBs is 100, and the table is queried to find that a correspondingly used RBG size is 4. In addition, a practical resource allocation condition under the bandwidth is indicated through the fourth indication information, a resource allocation granularity being four RBs.

[0044] In the claimed embodiments, the number of the bits required by the fourth indication information is determined according to the following formula:

or,

where G is the first-level RBG size,

is a BW of an ith activated BWP, n is the number of activated BWPs, i and n are integers and P is the second-level RBG size, applied to the NR resource allocation manner 0;
when

is less than or equal to 12, a value of the second-level RBG size is 1; and when

is another value, the value of the second-level RBG size is 2.

[0045] For example, an NR resource allocation manner 1 is adopted, the number of the bits required by the fourth indication information is determined through the following formula, the bandwidths of the four activated BWPs correspond to 50, 100, 25 and 200 RBs respectively and the first-level RBG sizes G are indexed to be 2, 4, 1 and 8 respectively. In such a case, a maximum bit number is calculated to be 9 through the following formula:



[0046] In some exemplary embodiments, if resource allocation of the selected activated BWP does not occupy the whole resource allocation region, higher bits of a sequence are filled with bits 0.

[0047] In some exemplary embodiments, valid bits in bits required by fourth indication information under different BWP BWs are approximate.

[0048] In some exemplary embodiments, the BS selects the part of activated BWPs based on one of the following information: the service characteristic of UE, the load condition of the UE, a capability condition of the UE and a channel environment.

[0049] In S303, a DCI message and the downlink data are sent, the third indication information and the fourth indication information being included.

[0050] In some exemplary embodiments, the third indication information and the fourth indication information are sent through the DCI message.

[0051] In S304, the UE receives the RRC message and the DCI message, determines the activated BWP for transmission of the downlink data based on the first indication information and the third indication information, queries the table based on the second indication information to obtain the first-level RBG size, queries the table based on sixth indication information to obtain a second-level RBG size and receives the downlink data according to the fourth indication information.

[0052] For example, the UE determines the number of the bits required by the fourth indication information by two methods, the bandwidths of the four activated BWPs correspond to 50, 100, 25 and 200 RBs respectively, the first-level RBG sizes G are indexed to be 2, 4, 1 and 8 respectively, and second-level RBG sizes are 2, 2, 2 and 2 respectively. In such a case, the maximum bit number calculated through the formula (1) is 9, the maximum bit number calculated through the formula (2) is 13, and the UE performs DCI message blind detection based on resource allocation regions being 9 bits and 13 bits. If Cyclic Redundancy Check (CRC) succeeds, a correct resource allocation manner is determined, for example, the resource allocation manner 1 is adopted. The third indication information indicates the four activated BWPs through two bits, for example, 01 indicates the second activated BWP to be switched and/or used, it is determined that the second activated BWP is used and the bandwidth is 100 RBs, and the table is queried through the second indication information to obtain that the value of the first-level RBG size is 4, namely the resource allocation granularity is 4 RBs. In such a case, the UE determines RBs for practically transmitting the downlink data according to the resource allocation manner 1, the resource allocation granularity of four RBs and the fourth indication information and receives the data.

Embodiment 2



[0053] This claimed embodiment provides an exemplary uplink resource allocation embodiment. As shown in Fig. 4, the following operations are included.

[0054] In S401, a BS sends a message to UE, first indication information and second indication information being included.

[0055] In the claimed embodiments, the first indication information is configured to indicate an activated BWP message, and the second indication information is configured to indicate one or more groups of first-level RBG sizes.

[0056] In the claimed embodiments, the activated BWP message at least includes BWP BW information.

[0057] For example, the first indication information indicates that the UE has four activated BWPs, and BWs of the four activated BWPs correspond to 50, 100, 25 and 200 RBs respectively.

[0058] In the claimed embodiments, each group of first-level RBG sizes in values of the one or more groups of RBG sizes includes multiple first-level RBG sizes, and each first-level RBG size corresponds to different BWP BWs.

[0059] In some exemplary embodiments, the corresponding relationship between the first-level RBG size and the different BWP BW includes that: the first-level RBG size at least includes one of the following numerical values: 1, 2, 3, 4, 6, 8, 10, 11, 12 and 16; when the value of the first-level RBG size is 1, a BWP BW range of an activated BWP is fewer than or equal to 31 RBs, or fewer than or equal to 26 RBs or fewer than or equal to 22 RBs; when the value of the first-level RBG size is 2, the BWP BW range of the activated BWP is 32 to 62 RBs, or 27 to 62 RBs, or 23 to 44 RBs; when the value of the first-level RBG size is 3, the BWP BW range of the activated BWP is 45 to 66 RBs; when the value of the first-level RBG size is 4, the BWP BW range of the activated BWP is 63 to 124 RBs, or 67 to 132 RBs; when the value of the first-level RBG size is 6, the BWP BW range of the activated BWP is 125 to 176 RBs, or 67 to 132 RBs; when the value of the first-level RBG size is 8, the BWP BW range of the activated BWP is 177 to 248 RBs, or 125 to 248 RBs, or 125 to 220 RBs, or 125 to 227 RBs; when the value of the first-level RBG size is 10, the BWP BW range of the activated BWP is 249 to 275 RBs, or 221 to 275 RBs, or 228 to 275 RBs; when the value of the first-level RBG size is 11, the BWP BW range of the activated BWP is 249 to 275 RBs; and when the value of the first-level RBG size is 12, the BWP BW range of the activated BWP is 133 to 240 RBs. When the value of the first-level RBG size is 16, the BWP BW range of the activated BWP is 241 to 275 RBs.

[0060] For example, a group of first-level RBG sizes is indicated, as shown in Table 3.
Table 3 BWP BW vs. RGB size
BWP BW RBG size
1-31 RBs 1
32-62 RBs 2
63-124 RBs 4
125-176 RBs 6
177-248 RBs 8
249-275 RBs 11


[0061] In some exemplary embodiments, the activated BWP message further includes a subcarrier spacing and position information.

[0062] In some exemplary embodiments, the BS sends sixth indication information, wherein the sixth indication information is configured to indicate a second-level RBG size, applied to a resource allocation manner 0.

[0063] In some exemplary embodiments, the first indication information, the second indication information and the sixth indication information are sent through the RRC message.

[0064] In some exemplary embodiments, the first indication information and the second indication information may be configured and transmitted through different RRC messages.

[0065] In some exemplary embodiments, in S402, the BS selects an activated BWP for receiving uplink data based on a service characteristic of the UE, a load condition of the UE and UE capability, queries a table to determine a corresponding first-level RBG size based on the BWP, determines a resource allocation method and determines third indication information and fourth indication information.

[0066] In the claimed embodiments, the BS sends the third indication information configured to indicate the selected activated BWP; and the BS sends the fourth indication information configured to indicate resource allocation. The number of bits required by the fourth indication information under different activated BWPs is a fixed value.

[0067] For example, the third indication information indicates four activated BWPs through two bits, for example, 01 indicates the second activated BWP to be switched and/or used, the number of correspondingly used RBs is 100, and the table is queried to find that a correspondingly used RBG size is 4. In addition, a practical resource allocation condition under the bandwidth is indicated through the fourth indication information, a resource allocation granularity being four RBs.

[0068] In the claimed embodiments, the number of the bits required by the fourth indication information is determined according to the following formula:

where G is the first-level RBG size,

is a BW of an ith activated BWP, n is the number of activated BWPs, i and n are integers and P is the second-level RBG size, applied to the NR resource allocation manner 0;
when

is less than or equal to 12, a value of the second-level RBG size is 1; and when

is another value, the value of the second-level RBG size is 2.

[0069] For example, an NR resource allocation manner 1 is adopted, the number of the bits required by the fourth indication information is determined through the following formula, the bandwidths of the four activated BWPs correspond to 50, 100, 25 and 200 RBs respectively and the first-level RBG sizes G are indexed to be 2, 4, 1 and 8 respectively. In such a case, a maximum bit number is calculated to be 9 through the following formula:



[0070] In some exemplary embodiments, if resource allocation of the selected activated BWP does not occupy the whole resource allocation region, higher bits of a sequence are filled with bits 0.

[0071] In some exemplary embodiments, valid bits in bits required by fourth indication information under different BWP BWs are approximate.

[0072] In some exemplary embodiments, the BS selects the part of activated BWPs based on one of the following information: the service characteristic of UE, the load condition of the UE, a capability condition of the UE and a channel environment.

[0073] In S403, a DCI message is sent, the third indication information and the fourth indication information being included.

[0074] In some exemplary embodiments, the third indication information and the fourth indication information are sent through the DCI message.

[0075] In S404, the UE receives the RRC message and the DCI message, determines the activated BWP for transmission of the uplink data based on the first indication information and the third indication information, queries the table based on the second indication information to obtain the first-level RBG size, queries the table based on sixth indication information to obtain a second-level RBG size and sends the uplink data in a corresponding uplink subframe according to the fourth indication information.

[0076] For example, the UE determines the number of the bits required by the fourth indication information by two methods, the bandwidths of the four activated BWPs correspond to 50, 100, 25 and 200 RBs respectively, the first-level RBG sizes G are indexed to be 2, 4, 1 and 8 respectively, and second-level RBG sizes are 2, 2, 2 and 2 respectively. In such a case, the maximum bit number calculated through the formula (1) is 9, the maximum bit number calculated through the formula (2) is 13, and the UE performs DCI message blind detection based on resource allocation regions being 9 bits and 13 bits. If Cyclic Redundancy Check (CRC) succeeds, a correct resource allocation manner is determined, for example, the resource allocation manner 1 is adopted. The third indication information indicates the four activated BWPs through two bits, for example, 01 indicates the second activated BWP to be switched and/or used, it is determined that the second activated BWP is used and the bandwidth is 100 RBs, and the table is queried through the second indication information to obtain that the value of the first-level RBG size is 4, namely the resource allocation granularity is 4 RBs. In such a case, the UE determines RBs for practically transmitting the uplink data according to the resource allocation manner 1, the resource allocation granularity of four RBs and the fourth indication information.

[0077] In S405, the uplink data and an Uplink Control Information (UCI) message are sent.

Embodiment 3



[0078] This embodiment provides an exemplary downlink resource allocation embodiment. As shown in Fig. 5, the following operations are included.

[0079] In S501, a BS sends an RRC message to UE, the RRC message including first indication information, second indication information, fifth indication information and sixth indication information.

[0080] In the claimed embodiments, the first indication information is configured to indicate an activated BWP message, and the second indication information is configured to indicate one or more groups of first-level RBG sizes.

[0081] In the claimed embodiments, the activated BWP message at least includes BWP BW information.

[0082] For example, the first indication information indicates that the UE has four activated BWPs, and BWs of the four activated BWPs correspond to 50, 100, 25 and 200 RBs respectively.

[0083] In the claimed embodiments, each group of first-level RBG sizes in values of the one or more groups of RBG sizes includes multiple first-level RBG sizes, and each first-level RBG size corresponds to different BWP BWs.

[0084] In some exemplary embodiments, a corresponding relationship between the first-level RBG size and the corresponding BWP BW includes that: the first-level RBG size at least includes one of the following numerical values: 1, 2, 3, 4, 6, 8, 10, 11, 12 and 16.

[0085] When the value of the first-level RBG size is 1, a BWP BW range of an activated BWP is fewer than or equal to 31 RBs, or fewer than or equal to 26 RBs or fewer than or equal to 22 RBs. When the value of the first-level RBG size is 2, the BWP BW range of the activated BWP is 32 to 62 RBs, or 27 to 62 RBs, or 23 to 44 RBs. When the value of the first-level RBG size is 3, the BWP BW range of the activated BWP is 45 to 66 RBs. When the value of the first-level RBG size is 4, the BWP BW range of the activated BWP is 63 to 124 RBs, or 67 to 132 RBs. When the value of the first-level RBG size is 6, the BWP BW range of the activated BWP is 125 to 176 RBs, or 67 to 132 RBs. When the value of the first-level RBG size is 8, the BWP BW range of the activated BWP is 177 to 248 RBs, or 125 to 248 RBs, or 125 to 220 RBs, or 125 to 227 RBs. When the value of the first-level RBG size is 10, the BWP BW range of the activated BWP is 249 to 275 RBs, or 221 to 275 RBs, or 228 to 275 RBs. When the value of the first-level RBG size is 11, the BWP BW range of the activated BWP is 249 to 275 RBs. When the value of the first-level RBG size is 12, the BWP BW range of the activated BWP is 133 to 240 RBs. When the value of the first-level RBG size is 16, the BWP BW range of the activated BWP is 241 to 275 RBs.

[0086] For example, two groups of first-level RBG sizes are indicated, as shown in Table 4.
Table 4 BWP BW vs. RGB size
BWP BW RBG size config 1 RBG size config 2
1-26 RBs 1 2
27-62 RBs 2 4
63-124 RBs 4 8
125-220 RBs 8 16
221-275 RBs 10 20


[0087] In some exemplary embodiments, the activated BWP message further includes a subcarrier spacing and position information.

[0088] In some exemplary embodiments, the BS sends the sixth indication information, wherein the sixth indication information is configured to indicate a second-level RBG size, applied to a resource allocation manner 0.

[0089] In some exemplary embodiments, the BS sends the fifth indication information configured to indicate a group of first-level RBG sizes that is selected, for example, indicating through one bit, 0 representing that config1 is selected and 1 representing that config2 is selected. For example, the fifth indication information is configured to be 0.

[0090] In some exemplary embodiments, the first indication information, the second indication information and the sixth indication information are sent through the RRC message.

[0091] In some exemplary embodiments, the first indication information and the second indication information may be configured and transmitted through different RRC messages.

[0092] In S502, the BS selects an activated BWP for transmitting downlink data based on a service characteristic of the UE, a load condition of the UE and UE capability, queries a table to determine a corresponding first-level RBG size based on the BWP, determines a resource allocation method, maps data and determines third indication information and fourth indication information.

[0093] In the claimed embodiments, the BS sends the third indication information configured to indicate the selected activated BWP; and the BS sends the fourth indication information configured to indicate resource allocation. The number of bits required by the fourth indication information under different activated BWPs is a fixed value.

[0094] For example, the third indication information indicates four activated BWPs through two bits, for example, 01 indicates the second activated BWP to be switched and/or used, the number of correspondingly used RBs is 100, and the table is queried to find that a correspondingly used RBG size is 4. In addition, a practical resource allocation condition under the bandwidth is indicated through the fourth indication information, a resource allocation granularity being four RBs.

[0095] In the claimed embodiments, the number of the bits required by the fourth indication information is determined according to the following formula:

or,

where G is the first-level RBG size,

is a BW of an ith activated BWP, n is the number of activated BWPs, i and n are integers and P is the second-level RBG size, applied to the NR resource allocation manner 0;
when

is less than or equal to 12, a value of the second-level RBG size is 1; and when

is another value, the value of the second-level RBG size is 2.

[0096] For example, an NR resource allocation manner 1 is adopted, the number of the bits required by the fourth indication information is determined through the following formula, the bandwidths of the four activated BWPs correspond to 50, 100, 25 and 200 RBs respectively and the first-level RBG sizes G are indexed to be 2, 4, 1 and 8 respectively. In such a case, a maximum bit number is calculated to be 9 through the following formula:



[0097] In some exemplary embodiments, if resource allocation of the selected activated BWP does not occupy the whole resource allocation region, higher bits of a sequence are filled with bits 0.

[0098] In some exemplary embodiments, valid bits in bits required by fourth indication information under different BWP BWs are approximate.

[0099] In some exemplary embodiments, the BS selects the part of activated BWPs based on one of the following information: the service characteristic of UE, the load condition of the UE, a capability condition of the UE and a channel environment.

[0100] In S503, a DCI message and the downlink data are sent, the third indication information and the fourth indication information being included.

[0101] In some exemplary embodiments, the third indication information and the fourth indication information are sent through the DCI message.

[0102] In S504, the UE receives the RRC message and the DCI message, determines the activated BWP for transmission of the downlink data based on the first indication information and the third indication information, queries the table based on the second indication information and the fifth indication information to obtain the first-level RBG size, queries the table based on the sixth indication information to obtain a second-level RBG size and correspondingly receives the downlink data according to the fourth indication information.

[0103] For example, the UE determines the number of the bits required by the fourth indication information by two methods, the bandwidths of the four activated BWPs correspond to 50, 100, 25 and 200 RBs respectively, the first-level RBG sizes G are indexed to be 2, 4, 1 and 8 according to the fifth indication information respectively, and second-level RBG sizes are 2, 2, 2 and 2 respectively. In such a case, the maximum bit number calculated through the formula (1) is 9, the maximum bit number calculated through the formula (2) is 13, and the UE performs DCI message blind detection based on resource allocation regions being 9 bits and 13 bits. If Cyclic Redundancy Check (CRC) succeeds, a correct resource allocation manner is determined, for example, the resource allocation manner 1 is adopted. The third indication information indicates the four activated BWPs through two bits, for example, 01 indicates the second activated BWP to be switched and/or used, it is determined that the second activated BWP is used and the bandwidth is 100 RBs, and the table is queried through the second indication information to obtain that the value of the first-level RBG size is 4, namely the resource allocation granularity is 4 RBs. In such a case, the UE determines RBs for practically transmitting the downlink data according to the resource allocation manner 1, the resource allocation granularity of four RBs and the fourth indication information and receives the data.

[0104] Through the above descriptions about the implementation modes, those skilled in the art may clearly know that the methods according to the embodiment may be implemented in a manner of combining software and a required universal hardware platform and, of course, may also be implemented through hardware, but the former is a preferred implementation mode under many circumstances. Based on such an understanding, the technical solutions of the present invention substantially or parts making contributions to a conventional art may be embodied in form of a software product. The computer software product is stored in a storage medium (for example, a Read-Only Memory (ROM)/Random Access Memory (RAM), a magnetic disk and an optical disk), including a plurality of instructions configured to enable a terminal device (which may be a mobile phone, a computer, a server, a network device or the like) to execute the method of each embodiment of the present invention.

[0105] An embodiment also provides a resource allocation indication device, which is configured to implement the abovementioned embodiments and optional implementation modes. What has been described will not be elaborated. For example, term "module" used below may be a combination of software and/or hardware capable of realizing a preset function. Although the device described in the following embodiment is preferably implemented with software, implementation with hardware or a combination of the software and the hardware is also possible and conceivable.

[0106] Fig. 6 is a structure block diagram of a resource allocation indication device according to an embodiment of the present invention. As shown in Fig. 6, the device includes:

a first sending module 62, configured to send first indication information, wherein the first indication information is configured to indicate an activated BWP message and the activated BWP message at least includes BWP BW information; and

a second sending module 64, configured to send second indication information, wherein the second indication information is configured to indicate one or more groups of first-level RBG sizes, each group of first-level RBG sizes includes multiple first-level RBG sizes, and each first-level RBG size corresponds to different BWP BWs, wherein there is a corresponding relationship between the first-level RBG size and different BWP BWs.



[0107] Through the device shown in Fig. 6, a corresponding relationship between a BW range and a value of an RBG size is set, so that it is ensured that valid bits in resource allocation regions of different BWs are approximate, the problem of relatively high DCI blind detection complexity caused by adoption of resource allocation regions in different sizes for BWPs with different BWs in the related art is further solved, and the technical effect of reducing the DCI message blind detection complexity is achieved.

[0108] In the claimed embodiments, the corresponding relationship includes that a value of the first-level RBG size is directly proportional to a BWP BW range.

[0109] In some exemplary embodiments, the corresponding relationship includes that: a value of the first-level RBG size includes at least one of 1, 2, 3, 4, 6, 8, 10, 11, 12 and 16; when the value of the first-level RBG size is 1, a BWP BW range of an activated BWP is RBs in a number less than or equal to one of 31, 26 and 22; when the value of the first-level RBG size is 2, the BWP BW range of the activated BWP is 32 to 62 RBs, or 27 to 62 RBs, or 23 to 44 RBs; when the value of the first-level RBG size is 3, the BWP BW range of the activated BWP is 45 to 66 RBs; when the value of the first-level RBG size is 4, the BWP BW range of the activated BWP is 63 to 124 RBs, or 67 to 132 RBs; when the value of the first-level RBG size is 6, the BWP BW range of the activated BWP is 125 to 176 RBs, or 67 to 132 RBs; when the value of the first-level RBG size is 8, the BWP BW range of the activated BWP is 177 to 248 RBs, or 125 to 248 RBs, or 125 to 220 RBs, or 125 to 227 RBs; when the value of the first-level RBG size is 10, the BWP BW range of the activated BWP is 249 to 275 RBs, or 221 to 275 RBs, or 228 to 275 RBs; when the value of the first-level RBG size is 11, the BWP BW range of the activated BWP is 249 to 275 RBs; when the value of the first-level RBG size is 12, the BWP BW range of the activated BWP is 133 to 240 RBs; and when the value of the first-level RBG size is 16, the BWP BW range of the activated BWP is 241 to 275 RBs.

[0110] In the claimed embodiments, the device further includes a third sending module, configured to send third indication information, wherein the third indication information is configured to indicate a part of activated BWPs selected from activated BWPs, and further configured to send fourth indication information, wherein the fourth indication information is configured to indicate resource allocation and a number of bits required by the fourth indication information under different activated BWPs is a fixed value.

[0111] In some exemplary embodiments, the device further includes a fourth sending module, configured to send fifth indication information, wherein the fifth indication information is configured to indicate a second-level RBG size.

[0112] In the claimed embodiments, the number of the bits required by the fourth indication information is determined according to the following formula:

or,

where G is the first-level RBG size,

is a BW of an ith activated BWP, n is a number of the activated BWPs, i and n are integers and P is the second-level RBG size;
when

is less than or equal to 12, a value of the second-level RBG size is 1; and when

is more than 12, the value of the second-level RBG size is 2.

[0113] In some exemplary embodiments, the device further includes a fifth sending module, configured to send sixth indication information, wherein the sixth indication information is configured to indicate one group of RBG sizes selected from multiple groups of RBG sizes, and the multiple groups of RBG sizes represent different resource allocation granularities.

[0114] In some exemplary embodiments, valid bits in bits required by fourth indication information under different BWP BWs are approximate.

[0115] In some exemplary embodiments, the device further includes a selection module, configured to select the part of activated BWPs based on one of the following information: a service characteristic of UE, a load condition of the UE, a capability condition of the UE and a channel environment.

[0116] In some exemplary embodiments, at least one piece of information in the first indication information, the second indication information, the fifth indication information and the sixth indication information is sent through an RRC message.

[0117] In some exemplary embodiments, the third indication information and/or the fourth indication information are/is sent through a DCI message.

[0118] An embodiment also provides a resource allocation indication receiving device. As shown in Fig. 7, the device includes:

a first receiving module 72, configured to receive first indication information sent by a BS, wherein the first indication information is configured to indicate an activated BWP message and the activated BWP message at least includes BWP BW information; and

a second receiving module 74, configured to receive second indication information sent by the BS, wherein the second indication information is configured to indicate one or more groups of first-level RBG sizes, each group of first-level RBG sizes includes multiple first-level RBG sizes, and each first-level RBG size corresponds to different BWP BWs, wherein there is a corresponding relationship between the first-level RBG size and different BWP BWs.



[0119] Through the device shown in Fig. 7, a corresponding relationship between a BW range and a value of an RBG size is received from the BS, so that it is ensured that valid bits in resource allocation regions of different BWs are approximate, the problem of relatively high DCI blind detection complexity caused by adoption of resource allocation regions in different sizes for BWPs with different BWs in the related art is further solved, and the technical effect of reducing the DCI message blind detection complexity is achieved.

[0120] In the claimed embodiments, the corresponding relationship includes that a value of the first-level RBG size is directly proportional to a BWP BW range.

[0121] In some exemplary embodiments, the corresponding relationship includes that: a value of the first-level RBG size includes at least one of 1, 2, 3, 4, 6, 8, 10, 11, 12 and 16; when the value of the first-level RBG size is 1, a BWP BW range of an activated BWP is RBs in a number less than or equal to one of 31, 26 and 22; when the value of the first-level RBG size is 2, the BWP BW range of the activated BWP is 32 to 62 RBs, or 27 to 62 RBs, or 23 to 44 RBs; when the value of the first-level RBG size is 3, the BWP BW range of the activated BWP is 45 to 66 RBs; when the value of the first-level RBG size is 4, the BWP BW range of the activated BWP is 63 to 124 RBs, or 67 to 132 RBs; when the value of the first-level RBG size is 6, the BWP BW range of the activated BWP is 125 to 176 RBs, or 67 to 132 RBs; when the value of the first-level RBG size is 8, the BWP BW range of the activated BWP is 177 to 248 RBs, or 125 to 248 RBs, or 125 to 220 RBs, or 125 to 227 RBs; when the value of the first-level RBG size is 10, the BWP BW range of the activated BWP is 249 to 275 RBs, or 221 to 275 RBs, or 228 to 275 RBs; when the value of the first-level RBG size is 11, the BWP BW range of the activated BWP is 249 to 275 RBs; when the value of the first-level RBG size is 12, the BWP BW range of the activated BWP is 133 to 240 RBs; and when the value of the first-level RBG size is 16, the BWP BW range of the activated BWP is 241 to 275 RBs.

[0122] In the claimed embodiments, the device further includes a third receiving module, configured to receive third indication information sent by the BS, wherein the third indication information is configured to indicate a part of activated BWPs selected from activated BWPs, and further configured to receive fourth indication information sent by the BS, wherein the fourth indication information is configured to indicate resource allocation and a number of bits required by the fourth indication information under different activated BWPs is a fixed value.

[0123] In some exemplary embodiments, the device further includes a fourth receiving module, configured to receive fifth indication information sent by the BS, wherein the fifth indication information is configured to indicate a second-level RBG size.

[0124] In the claimed embodiments, the number of the bits required by the fourth indication information is determined according to the following formula:

or,

where G is the first-level RBG size,

is a BW of an ith activated BWP, n is a number of the activated BWPs, i and n are integers and P is the second-level RBG size;
when

is less than or equal to 12, a value of the second-level RBG size is 1; and when

is more than 12, the value of the second-level RBG size may be 2.

[0125] In some exemplary embodiments, the device further includes a fifth receiving module, configured to receive sixth indication information sent by the BS, wherein the sixth indication information is configured to indicate one group of RBG sizes selected from multiple groups of RBG sizes, and the multiple groups of RBG sizes represent different resource allocation granularities.

[0126] In some exemplary embodiments, valid bits in bits required by fourth indication information under different BWP BWs are approximate.

[0127] It is to be noted that each module may be implemented through software or hardware and, under the latter condition, may be implemented in, but not limited to, the following manner: the modules are all positioned in the same processor, or the modules are positioned in different processors in any combination form respectively.

[0128] A non-claimed embodiment of the present application also provides a storage medium, which includes a stored program, the program running to execute any abovementioned method.

[0129] Optionally, in the embodiment, the storage medium may include, but not limited to, various medium capable of storing program codes such as a U disk, a ROM, a RAM, a mobile hard disk, a magnetic disk or an optical disk.

[0130] A non-claimed embodiment of the present application also provides a processor, which is configured to run a program, the program running to execute the operations in any abovementioned method.

[0131] Optionally, specific examples in the embodiment may refer to the examples described in the abovementioned embodiments and optional implementation modes and will not be elaborated in the embodiment.

[0132] A non-claimed embodiment of the present application also provides a BS, which includes a processor and a memory storing an instruction executable for the processor, the instruction being executed by the processor to execute the operations of the method applied to a BS in the embodiments of the present application.

[0133] A non-claimed embodiment of the present application also provides UE, which includes a processor and a memory storing an instruction executable for the processor, the instruction being executed by the processor to execute the operations of the method applied to UE in the embodiments of the present application.

[0134] It is apparent that those skilled in the art should know that each module or each step of the present application may be implemented through a universal computing device. They may be concentrated in a single computing device or distributed in a network formed by multiple computing devices. In some exemplary embodiments, they may be implemented by program codes executable for the computing devices and thus may be stored in a storage device for execution with the computing devices. Moreover, in some cases, the shown or described operations may be executed in sequences different from those described here, or may form various integrated circuit modules respectively, or multiple modules or operations therein may form a single integrated circuit module for implementation. Therefore, the present invention is not limited to any specific hardware and software combination.


Claims

1. A resource allocation indication method, comprising:

sending, by a Base Station, BS, first indication information, wherein the first indication information is configured to indicate an activated Bandwidth Part, BWP, message and the activated BWP message at least comprises BWP Bandwidth, BW, information (S102); and

sending, by the BS, second indication information, wherein the second indication information is configured to indicate one or more groups of first-level Resource Block Group, RBG, sizes, each group of first-level RBG sizes comprises multiple first-level RBG sizes, and each first-level RBG size corresponds to different BWP BWs,

wherein there is a corresponding relationship between the first-level RBG size and different BWP BWs (S104),

wherein the method further comprises:

sending, by the BS, third indication information, wherein the third indication information is configured to indicate a part of activated BWPs selected from activated BWPs; and

sending, by the BS, fourth indication information, wherein the fourth indication information is configured to indicate resource allocation and a number of bits required by the fourth indication information under different activated BWPs is a fixed value, wherein the number of the bits required by the fourth indication information is determined according to the following formula:

or,

where G is the first-level RBG size,

is a BW of an ith activated BWP, n is a number of the activated BWPs, i and n are integers and P is the second-level RBG size;

when

is less than or equal to 12, a value of the second-level RBG size is 1; and when

is more than 12, the value of the second-level RBG size is 2.


 
2. The method as claimed in claim 1, wherein the corresponding relationship comprises that a value of the first-level RBG size is directly proportional to a BWP BW range.
 
3. The method as claimed in claim 1, wherein

the corresponding relationship comprises that: a value of the first-level RBG size comprises at least one of 1, 2, 3, 4, 6, 8, 10, 11, 12 and 16;

when the value of the first-level RBG size is 1, a BWP BW range of an activated BWP is Resource Blocks, RBs, in a number less than or equal to one of 31, 26 and 22;

when the value of the first-level RBG size is 2, the BWP BW range of the activated BWP is 32 to 62 RBs, or 27 to 62 RBs, or 23 to 44 RBs;

when the value of the first-level RBG size is 3, the BWP BW range of the activated BWP is 45 to 66 RBs;

when the value of the first-level RBG size is 4, the BWP BW range of the activated BWP is 63 to 124 RBs, or 67 to 132 RBs;

when the value of the first-level RBG size is 6, the BWP BW range of the activated BWP is 125 to 176 RBs, or 67 to 132 RBs;

when the value of the first-level RBG size is 8, the BWP BW range of the activated BWP is 177 to 248 RBs, or 125 to 248 RBs, or 125 to 220 RBs, or 125 to 227 RBs;

when the value of the first-level RBG size is 10, the BWP BW range of the activated BWP is 249 to 275 RBs, or 221 to 275 RBs, or 228 to 275 RBs;

when the value of the first-level RBG size is 11, the BWP BW range of the activated BWP is 249 to 275 RBs;

when the value of the first-level RBG size is 12, the BWP BW range of the activated BWP is 133 to 240 RBs; and

when the value of the first-level RBG size is 16, the BWP BW range of the activated BWP is 241 to 275 RBs.


 
4. The method as claimed in claim 1, further comprising:
sending, by the BS, fifth indication information, wherein the fifth indication information is configured to indicate a second-level RBG size.
 
5. The method as claimed in claim 1, further comprising:
sending, by the BS, sixth indication information, wherein the sixth indication information is configured to indicate one group of RBG sizes selected from multiple groups of RBG sizes, and the multiple groups of RBG sizes represent different resource allocation granularities.
 
6. The method as claimed in claim 1, wherein
valid bits in bits required by the fourth indication information under different BWP BWs are approximate.
 
7. The method as claimed in claim 1, wherein
the BS selects the part of activated BWPs based on one of the following information:
a service characteristic of User Equipment, UE, a load condition of the UE, a capability condition of the UE and a channel environment.
 
8. The method as claimed in claim 1, 4 or 5, wherein
the BS sends at least one of the following indication information through a Radio Resource Control, RRC, message:
the first indication information, the second indication information, the fifth indication information and the sixth indication information.
 
9. The method as claimed in claim 1, wherein
the BS sends the third indication information and/or the fourth indication information through a Downlink Control Information, DCI, message.
 
10. A resource allocation indication receiving method, comprising:

receiving, by User Equipment, UE, first indication information sent by a base Station, BS, wherein the first indication information is configured to indicate an activated Bandwidth Part, BWP, message and the activated BWP message at least comprises BWP Bandwidth, BW, information (S202); and

receiving, by the UE, second indication information sent by the BS, wherein the second indication information is configured to indicate one or more groups of first-level Resource Block Group, RBG, sizes, each group of first-level RBG sizes comprises multiple first-level RBG sizes, and each first-level RBG size corresponds to different BWP BWs,

wherein there is a corresponding relationship between the first-level RBG size and different BWP BWs (S204),

wherein the method further comprises:

receiving, by the UE, third indication information sent by the BS, wherein the third indication information is configured to indicate a part of activated BWPs selected from activated BWPs; and

receiving, by the UE, fourth indication information sent by the BS, wherein the fourth indication information is configured to indicate resource allocation and a number of bits required by the fourth indication information under different activated BWPs is a fixed value, wherein the number of the bits required by the fourth indication information is determined according to the following formula:

or,

where G is the first-level RBG size,

is a BW of an ith activated BWP, n is a number of the activated BWPs, i and n are integers and P is the second-level RBG size;

when

is less than or equal to 12, a value of the second-level RBG size is 1; and when

is another value except 12, the value of the second-level RBG size is 2.


 
11. The method as claimed in claim 10, wherein the corresponding relationship comprises that: a value of the first-level RBG size comprises at least one of 1, 2, 3, 4, 6, 8, 10, 11, 12 and 16;

when the value of the first-level RBG size is 1, a BWP BW range of an activated BWP is Resource Blocks, RBs, in a number less than or equal to one of 31, 26 and 22;

when the value of the first-level RBG size is 2, the BWP BW range of the activated BWP is 32 to 62 RBs, or 27 to 62 RBs, or 23 to 44 RBs;

when the value of the first-level RBG size is 3, the BWP BW range of the activated BWP is 45 to 66 RBs;

when the value of the first-level RBG size is 4, the BWP BW range of the activated BWP is 63 to 124 RBs, or 67 to 132 RBs;

when the value of the first-level RBG size is 6, the BWP BW range of the activated BWP is 125 to 176 RBs, or 67 to 132 RBs;

when the value of the first-level RBG size is 8, the BWP BW range of the activated BWP is 177 to 248 RBs, or 125 to 248 RBs, or 125 to 220 RBs, or 125 to 227 RBs;

when the value of the first-level RBG size is 10, the BWP BW range of the activated BWP is 249 to 275 RBs, or 221 to 275 RBs, or 228 to 275 RBs;

when the value of the first-level RBG size is 11, the BWP BW range of the activated BWP is 249 to 275 RBs;

when the value of the first-level RBG size is 12, the BWP BW range of the activated BWP is 133 to 240 RBs; and

when the value of the first-level RBG size is 16, the BWP BW range of the activated BWP is 241 to 275 RBs.


 
12. A resource allocation indication device, applied to a Base Station, BS, and comprising:

a first sending module (62), configured to send first indication information, wherein the first indication information is configured to indicate an activated Bandwidth Part, BWP, message and the activated BWP message at least comprises BWP Bandwidth, BW, information; and

a second sending module (64), configured to send second indication information, wherein the second indication information is configured to indicate one or more groups of first-level Resource Block Group, RBG, sizes, each group of first-level RBG sizes comprises multiple first-level RBG sizes, and each first-level RBG size corresponds to different BWP BWs, wherein there is a corresponding relationship between the first-level RBG size and different BWP BWs,

wherein the first sending module (62) is further configured to send third indication information, wherein the third indication information is configured to indicate a part of activated BWPs selected from activated BWPs; and

the first sending module (62) is further configured to send fourth indication information, wherein the fourth indication information is configured to indicate resource allocation and a number of bits required by the fourth indication information under different activated BWPs is a fixed value, wherein the number of the bits required by the fourth indication information is determined according to the following formula:

or,

where G is the first-level RBG size,

is a BW of an ith activated BWP, n is a number of the activated BWPs, i and n are integers and P is the second-level RBG size;

when

is less than or equal to 12, a value of the second-level RBG size is 1; and when

is more than 12, the value of the second-level RBG size is 2.


 
13. A resource allocation indication receiving device, applied to User Equipment, UE, and comprising:

a first receiving module (72), configured to receive first indication information sent by a Base Station, BS, wherein the first indication information is configured to indicate an activated Bandwidth Part, BWP, message and the activated BWP message at least comprises BWP Bandwidth, BW, information; and

a second receiving module (74), configured to receive second indication information sent by the BS, wherein the second indication information is configured to indicate one or more groups of first-level Resource Block Group, RBG, sizes, each group of first-level RBG sizes comprises multiple first-level RBG sizes, and each first-level RBG size corresponds to different BWP BWs,

wherein there is a corresponding relationship between the first-level RBG size and different BWP BWs, and wherein:

the first receiving module (72), further configured to receive third indication information sent by the BS, wherein the third indication information is configured to indicate a part of activated BWPs selected from activated BWPs; and

the first receiving module (72), further configured to receive by the UE, fourth indication information sent by the BS, wherein the fourth indication information is configured to indicate resource allocation and a number of bits required by the fourth indication information under different activated BWPs is a fixed value, wherein the number of the bits required by the fourth indication information is determined according to the following formula:

or,

where G is the first-level RBG size,

is a BW of an ith activated BWP, n is a number of the activated BWPs, i and n are integers and P is the second-level RBG size;

when

is less than or equal to 12, a value of the second-level RBG size is 1; and when

is another value except 12, the value of the second-level RBG size is 2.


 


Ansprüche

1. Ressourcenzuweisungsanzeigeverfahren, umfassend:

Senden einer ersten Anzeigeinformation durch eine Basisstation (BS), wobei die erste Anzeigeinformation so konfiguriert ist, dass sie eine aktivierte Bandbreitenteil- (BWP-) Nachricht anzeigt und die aktivierte BWP-Nachricht mindestens eine BWP-Bandbreiten- (BW-) Information umfasst (S102); und

Senden einer zweiten Anzeigeinformation durch die BS, wobei die zweite Anzeigeinformation so konfiguriert ist, dass sie eine oder mehrere Gruppen von Ressourcenblockgruppen (RBG)-Größen der ersten Ebene anzeigt, wobei jede Gruppe von RBG-Größen der ersten Ebene mehrere RBG-Größen der ersten Ebene umfasst und jede RBG-Größe der ersten Ebene verschiedenen BWP-BWs entspricht,

wobei es eine entsprechende Beziehung zwischen der RBG-Größe der ersten Ebene und verschiedenen BWP BWs gibt (S104),

wobei das Verfahren ferner umfasst:

Senden einer dritten Anzeigeinformation durch die BS, wobei die dritte Anzeigeinformation so konfiguriert ist, dass sie einen Teil der aktivierten BWPs anzeigt, der aus den aktivierten BWPs ausgewählt ist; und

Senden einer vierten Anzeigeinformation durch die BS, wobei die vierte Anzeigeinformation so konfiguriert ist, dass sie eine Ressourcenzuweisung anzeigt und eine Anzahl von Bits, die von der vierten Anzeigeinformation unter verschiedenen aktivierten BWPs benötigt wird, ein fester Wert ist, wobei die Anzahl der Bits, die von der vierten Anzeigeinformation benötigt wird, gemäß der folgenden Formel bestimmt wird:

oder

wobei G die RBG-Größe der ersten Ebene ist,

ein BW eines i-ten aktivierten BWPs ist, n eine Anzahl der aktivierten BWPs ist, i und n ganze Zahlen sind und P die RBG-Größe der zweiten Ebene ist;

wenn

kleiner oder gleich 12 ist, ist ein Wert der RBG-Größe der zweiten Ebene 1; und wenn

größer als 12 ist, ist der Wert der RBG-Größe der zweiten Ebene 2.


 
2. Verfahren nach Anspruch 1, wobei die entsprechende Beziehung umfasst, dass ein Wert der RBG-Größe der ersten Ebene direkt proportional zu einem BWP-BW-Bereich ist.
 
3. Verfahren nach Anspruch 1, wobei

die entsprechende Beziehung umfasst, dass: ein Wert der RBG-Größe der ersten Ebene mindestens einen der Werte 1, 2, 3, 4, 6, 8, 10, 11, 12 und 16 umfasst;

wenn der Wert der RBG-Größe der ersten Ebene 1 ist, ein BWP-BW-Bereich einer aktivierten BWP Ressourcenblöcke, RBs, in einer Anzahl kleiner oder gleich einem von 31, 26 und 22 ist;

wenn der Wert der RBG-Größe der ersten Ebene 2 ist, der BWP-BW-Bereich der aktivierten BWP 32 bis 62 RBs oder 27 bis 62 RBs oder 23 bis 44 RBs ist;

wenn der Wert der RBG-Größe der ersten Ebene 3 ist, der BWP-BW-Bereich der aktivierten BWP 45 bis 66 RBs ist;

wenn der Wert der RBG-Größe der ersten Ebene 4 ist, der BWP-BW-Bereich der aktivierten BWP 63 bis 124 RBs oder 67 bis 132 RBs ist;

wenn der Wert der RBG-Größe der ersten Ebene 6 ist, der BWP-BW-Bereich der aktivierten BWP 125 bis 176 RBs oder 67 bis 132 RBs ist;

wenn der Wert der RBG-Größe der ersten Ebene 8 ist, der BWP-BW-Bereich der aktivierten BWP 177 bis 248 RBs oder 125 bis 248 RBs oder 125 bis 220 Rbs oder 125 bis 227 RBs ist;

wenn der Wert der RBG-Größe der ersten Ebene 10 ist, der BWP-BW-Bereich der aktivierten BWP 249 bis 275 RBs oder 221 bis 275 RBs oder 228 bis 275 RBs ist;

wenn der Wert der RBG-Größe der ersten Ebene 11 ist, der BWP-BW-Bereich der aktivierten BWP 249 bis 275 RBs ist;

wenn der Wert der RBG-Größe der ersten Ebene 12 ist, der BWP-BW-Bereich der aktivierten BWP 133 bis 240 RBs ist; und

wenn der Wert der RBG-Größe der ersten Ebene 16 ist, der BWP-BW-Bereich der aktivierten BWP 241 bis 275 RBs ist.


 
4. Verfahren nach Anspruch 1, ferner umfassend:
Senden einer fünften Anzeigeinformation durch die BS, wobei die fünfte Anzeigeinformation so konfiguriert ist, dass sie eine RBG-Größe der zweiten Ebene anzeigt.
 
5. Verfahren nach Anspruch 1, ferner umfassend:
Senden einer sechsten Anzeigeinformation durch die BS, wobei die sechste Anzeigeinformation so konfiguriert ist, dass sie eine Gruppe von RBG-Größen anzeigt, die aus mehreren Gruppen von RBG-Größen ausgewählt ist, und die mehreren Gruppen von RBG-Größen unterschiedliche Granularitäten der Ressourcenzuweisung darstellen.
 
6. Verfahren nach Anspruch 1, wobei
gültige Bits in Bits, die von der vierten Anzeigeinformation unter verschiedenen BWP BWs benötigt werden, annähernd sind.
 
7. Verfahren nach Anspruch 1, wobei
die BS den Teil der aktivierten BWPs basierend auf einer der folgenden Informationen auswählt:
einem Dienstmerkmal des Benutzergeräts, UE, einem Zustand der Auslastung des UE, einem Zustand der Fähigkeit des UE und einer Kanalumgebung.
 
8. Verfahren nach Anspruch 1, 4 oder 5, wobei
die BS mindestens eine der folgenden Anzeigeinformationen über eine Funkressourcensteuerungs- (RRC-) Nachricht sendet:
die erste Anzeigeninformation, die zweite Anzeigeninformation, die fünfte Anzeigeninformation und die sechste Anzeigeninformation.
 
9. Verfahren nach Anspruch 1, wobei
die BS die dritte Anzeigeinformation und/oder die vierte Anzeigeinformation über eine Downlink-Steuerinformations-, DCI-, Nachricht sendet.
 
10. Ressourcenzuweisungsanzeige-Empfangsverfahren, umfassend:

Empfangen einer ersten Anzeigeinformation, die von einer Basisstation (BS) gesendet wurde, durch ein Benutzergerät (UE), wobei die erste Anzeigeinformation so konfiguriert ist, dass sie eine aktivierte Bandbreitenteil- (BWP-) Nachricht anzeigt und die aktivierte BWP-Nachricht mindestens eine BWP-Bandbreiten- (BW-) Information umfasst (S202); und

Empfangen einer zweiten Anzeigeinformation, die von der BS gesendet wurde, durch die UE, wobei die zweite Anzeigeinformation so konfiguriert ist, dass sie eine oder mehrere Gruppen von Ressourcenblockgruppen (RBG)-Größen der ersten Ebene anzeigt, wobei jede Gruppe von RBG-Größen der ersten Ebene mehrere RBG-Größen der ersten Ebene umfasst und jede RBG-Größe der ersten Ebene verschiedenen BWP-BWs entspricht,

wobei es eine entsprechende Beziehung zwischen der RBG-Größe der ersten Ebene und verschiedenen BWP BWs gibt (S204),

wobei das Verfahren ferner umfasst:

Empfangen einer dritten Anzeigeinformation, die von der BS gesendet wurde, durch die UE, wobei die dritte Anzeigeinformation so konfiguriert ist, dass sie einen Teil der aktivierten BWPs anzeigt, der aus den aktivierten BWPs ausgewählt ist; und

Empfangen einer vierten Anzeigeinformation, die von der BS gesendet wurde, durch die UE, wobei die vierte Anzeigeinformation so konfiguriert ist, dass sie eine Ressourcenzuweisung anzeigt und eine Anzahl von Bits, die von der vierten Anzeigeinformation unter verschiedenen aktivierten BWPs benötigt wird, ein fester Wert ist, wobei die Anzahl der Bits, die von der vierten Anzeigeinformation benötigt wird, gemäß der folgenden Formel bestimmt wird:

oder

wobei G die RBG-Größe der ersten Ebene ist,

ein BW eines i-ten aktivierten BWPs ist, n eine Anzahl der aktivierten BWPs ist, i und n ganze Zahlen sind und P die RBG-Größe der zweiten Ebene ist;

Wenn

kleiner oder gleich 12 ist, ist ein Wert der RBG-Größe der zweiten Ebene 1; und wenn

ein anderer Wert außer 12 ist, ist der Wert der RBG-Größe der zweiten Ebene 2.


 
11. Verfahren nach Anspruch 10, wobei die entsprechende Beziehung umfasst, dass: ein Wert der RBG-Größe der ersten Ebene mindestens einen der Werte 1, 2, 3, 4, 6, 8, 10, 11, 12 und 16 umfasst;

wenn der Wert der RBG-Größe der ersten Ebene 1 ist, ein BWP-BW-Bereich einer aktivierten BWP Ressourcenblöcke, RBs, in einer Anzahl kleiner oder gleich einem von 31, 26 und 22 ist;

wenn der Wert der RBG-Größe der ersten Ebene 2 ist, der BWP-BW-Bereich der aktivierten BWP 32 bis 62 RBs oder 27 bis 62 RBs oder 23 bis 44 RBs ist;

wenn der Wert der RBG-Größe der ersten Ebene 3 ist, der BWP-BW-Bereich der aktivierten BWP 45 bis 66 RBs ist;

wenn der Wert der RBG-Größe der ersten Ebene 4 ist, der BWP-BW-Bereich der aktivierten BWP 63 bis 124 RBs oder 67 bis 132 RBs ist;

wenn der Wert der RBG-Größe der ersten Ebene 6 ist, der BWP-BW-Bereich der aktivierten BWP 125 bis 176 RBs oder 67 bis 132 RBs ist;

wenn der Wert der RBG-Größe der ersten Ebene 8 ist, der BWP-BW-Bereich der aktivierten BWP 177 bis 248 RBs, oder 125 bis 248 RBs, oder 125 bis 220 RBs, oder 125 bis 227 RBs ist;

wenn der Wert der RBG-Größe der ersten Ebene 10 ist, der BWP-BW-Bereich der aktivierten BWP 249 bis 275 RBs oder 221 bis 275 RBs oder 228 bis 275 RBs ist;

wenn der Wert der RBG-Größe der ersten Ebene 11 ist, der BWP-BW-Bereich der aktivierten BWP 249 bis 275 RBs ist;

wenn der Wert der RBG-Größe der ersten Ebene 12 ist, der BWP-BW-Bereich der aktivierten BWP 133 bis 240 RBs ist; und

wenn der Wert der RBG-Größe der ersten Ebene 16 ist, der BWP-BW-Bereich der aktivierten BWP 241 bis 275 RBs ist.


 
12. Ressourcenzuweisungsanzeigevorrichtung, die an einer Basisstation (BS) angewendet wird und umfasst:

ein erstes Sendemodul (62), das so konfiguriert ist, dass es erste Anzeigeinformation sendet, wobei die erste Anzeigeinformation so konfiguriert ist, dass sie eine aktivierte Bandbreitenteil-(BWP-) Nachricht anzeigt und die aktivierte BWP-Nachricht mindestens eine BWP-Bandbreiten- (BW-) Information umfasst; und

ein zweites Sendemodul (64), das so konfiguriert ist, dass es zweite Anzeigeinformation sendet, wobei die zweite Anzeigeinformation so konfiguriert ist, dass sie eine oder mehrere Gruppen von Ressourcenblockgruppen (RBG)-Größen der ersten Ebene anzeigt, wobei jede Gruppe von RBG-Größen der ersten Ebene mehrere RBG-Größen der ersten Ebene umfasst und jede RBG-Größe der ersten Ebene verschiedenen BWP-BWs entspricht, wobei es eine entsprechende Beziehung zwischen der RBG-Größe der ersten Ebene und verschiedenen BWP-BWs gibt,

wobei das erste Sendemodul (62) ferner so konfiguriert ist, dass es dritte Anzeigeinformation sendet, wobei die dritte Anzeigeinformation so konfiguriert ist, dass sie einen Teil der aktivierten BWPs anzeigt, der aus den aktivierten BWPs ausgewählt ist; und

das erste Sendemodul (62) ferner so konfiguriert ist, dass es vierte Anzeigeinformation sendet, wobei die vierte Anzeigeinformation so konfiguriert ist, dass sie eine Ressourcenzuweisung anzeigt und eine Anzahl von Bits, die von der vierten Anzeigeinformation unter verschiedenen aktivierten BWPs benötigt wird, ein fester Wert ist, wobei die Anzahl der Bits, die von der vierten Anzeigeinformation benötigt wird, gemäß der folgenden Formel bestimmt wird:

oder

wobei G die RBG-Größe der ersten Ebene ist,

ein BW eines i-ten aktivierten BWPs ist, n eine Anzahl der aktivierten BWPs ist, i und n ganze Zahlen sind und P die RBG-Größe der zweiten Ebene ist;

wenn

kleiner oder gleich 12 ist, ist ein Wert der RBG-Größe der zweiten Ebene 1; und wenn

größer als 12 ist, ist der Wert der RBG-Größe der zweiten Ebene 2.


 
13. Ressourcenzuweisungsanzeige-Empfangsvorrichtung, die an ein Benutzergerät (UE) angewendet wird und umfasst:

ein erstes Empfangsmodul (72), das so konfiguriert ist, dass es erste Anzeigeinformation empfängt, die von einer Basisstation (BS) gesendet wurde, wobei die erste Anzeigeinformation so konfiguriert ist, dass sie eine aktivierte Bandbreitenteil- (BWP-) Nachricht anzeigt und die aktivierte BWP-Nachricht mindestens eine BWP-Bandbreiten- (BW-) Information umfasst; und

ein zweites Empfangsmodul (74), das so konfiguriert ist, dass es zweite Anzeigeinformation empfängt, die von der BS gesendet wurde, wobei die zweite Anzeigeinformation so konfiguriert ist, dass sie eine oder mehrere Gruppen von Ressourcenblockgruppen (RBG)-Größen der ersten Ebene anzeigt, wobei jede Gruppe von RBG-Größen der ersten Ebene mehrere RBG-Größen der ersten Ebene umfasst und jede RBG-Größe der ersten Ebene verschiedenen BWP-BWs entspricht,

wobei es eine entsprechende Beziehung zwischen der RBG-Größe der ersten Ebene und verschiedenen BWP BWs gibt, und wobei:

das erste Empfangsmodul (72) ferner so konfiguriert ist, dass es dritte Anzeigeinformation empfängt, die von der BS gesendet wurde, wobei die dritte Anzeigeinformation so konfiguriert ist, dass sie einen Teil der aktivierten BWPs anzeigt, der aus den aktivierten BWPs ausgewählt ist; und

das erste Empfangsmodul (72) ferner so konfiguriert ist, dass es vierte Anzeigeinformation , die von der BS gesendet wurde, durch die UE empfängt, wobei die vierte Anzeigeinformation so konfiguriert ist, dass sie eine Ressourcenzuweisung anzeigt und eine Anzahl von Bits, die von der vierten Anzeigeinformation unter verschiedenen aktivierten BWPs benötigt wird, ein fester Wert ist, wobei die Anzahl der Bits, die von der vierten Anzeigeinformation benötigt wird, gemäß der folgenden Formel bestimmt wird:

oder

wobei G die RBG-Größe der ersten Ebene ist,

ein BW eines i-ten aktivierten BWPs ist, n eine Anzahl der aktivierten BWPs ist, i und n ganze Zahlen sind und P die RBG-Größe der zweiten Ebene ist;

wenn

kleiner oder gleich 12 ist, ist ein Wert der RBG-Größe der zweiten Ebene 1; und wenn

ein anderer Wert außer 12 ist, ist der Wert der RBG-Größe der zweiten Ebene 2.


 


Revendications

1. Procédé d'indication d'attribution de ressources, comprenant :

l'envoi, par une station de base, BS, de premières informations d'indication, dans lequel les premières informations d'indication sont configurées pour indiquer un message de partie de bande passante, BWP, activée et le message de BWP activée comprend au moins des informations de bande passante, BW, de BWP (S102) ; et

l'envoi, par la BS, de deuxièmes informations d'indication, dans lequel les deuxièmes informations d'indication sont configurées pour indiquer un ou plusieurs groupes de tailles de groupe de blocs de ressources, RBG, de premier niveau, chaque groupe de tailles de RBG de premier niveau comprend de multiples tailles de RBG de premier niveau et chaque taille de RBG de premier niveau correspond à différentes BW de BWP,

dans lequel il existe une relation de correspondance entre la taille de RBG de premier niveau et différentes BW de BWP (S104),

dans lequel le procédé comprend en outre :

l'envoi, par la BS, de troisièmes informations d'indication, dans lequel les troisièmes informations d'indication sont configurées pour indiquer une partie de BWP activées sélectionnées parmi des BWP activées ; et

l'envoi, par la BS, de quatrièmes informations d'indication, dans lequel les quatrièmes informations d'indication sont configurées pour indiquer une attribution de ressources et un nombre de bits requis par les quatrièmes informations d'indication sous différentes BWP activées est une valeur fixe, dans lequel le nombre des bits requis par les quatrièmes informations d'indication est déterminé selon la formule suivante :

ou

où G est la taille de RBG de premier niveau,

est une BW d'une i-ème BWP activée, n est un nombre des BWP activées, i et n sont des nombres entiers et P est la taille de RBG de second niveau ;

quand

est inférieur ou égal à 12, une valeur de la taille de RBG de second niveau est 1 ; et quand

est supérieur à 12, la valeur de la taille de RBG de second niveau est 2.


 
2. Procédé selon la revendication 1, dans lequel la relation de correspondance comprend le fait qu'une valeur de la taille de RBG de premier niveau est directement proportionnelle à une plage de BW de BWP.
 
3. Procédé selon la revendication 1, dans lequel

la relation de correspondance comprend : le fait qu'une valeur de la taille de RBG de premier niveau comprend au moins une valeur parmi 1, 2, 3, 4, 6, 8, 10, 11, 12 et 16 ;

lorsque la valeur de la taille de RBG de premier niveau est 1, le fait qu'une plage de BW de BWP d'une BWP activée correspond à des blocs de ressources, RB, en un nombre inférieur ou égal à une valeur parmi 31, 26 et 22 ;

lorsque la valeur de la taille de RBG de premier niveau est 2, le fait que la plage de BW de BWP de la BWP activée est de 32 à 62 RB ou de 27 à 62 RB ou de 23 à 44 RB ;

lorsque la valeur de la taille de RBG de premier niveau est 3, le fait que la plage de BW de BWP de la BWP activée est de 45 à 66 RB ;

lorsque la valeur de la taille de RBG de premier niveau est 4, le fait que la plage de BW de BWP de la BWP activée est de 63 à 124 RB ou de 67 à 132 RB ;

lorsque la valeur de la taille de RBG de premier niveau est 6, le fait que la plage de BW de BWP de la BWP activée est de 125 à 176 RB ou de 67 à 132 RB ;

lorsque la valeur de la taille de RBG de premier niveau est 8, le fait que la plage de BW de BWP de la BWP activée est de 177 à 248 RB ou de 125 à 248 RB ou de 125 à 220 RB ou de 125 à 227 RB ;

lorsque la valeur de la taille de RBG de premier niveau est 10, le fait que la plage de BW de BWP de la BWP activée est de 249 à 275 RB ou de 221 à 275 RB ou de 228 à 275 RB ;

lorsque la valeur de la taille de RBG de premier niveau est 11, le fait que la plage de BW de BWP de la BWP activée est de 249 à 275 RB ;

lorsque la valeur de la taille de RBG de premier niveau est 12, le fait que la plage de BW de BWP de la BWP activée est de 133 à 240 RB ; et

lorsque la valeur de la taille de RBG de premier niveau est 16, le fait que la plage de BW de BWP de la BWP activée est de 241 à 275 RB.


 
4. Procédé selon la revendication 1, comprenant en outre :
l'envoi, par la BS, de cinquièmes informations d'indication, dans lequel les cinquièmes informations d'indication sont configurées pour indiquer une taille de RBG de second niveau.
 
5. Procédé selon la revendication 1, comprenant en outre :
l'envoi, par la BS, de sixièmes informations d'indication, dans lequel les sixièmes informations d'indication sont configurées pour indiquer un groupe de tailles de RBG sélectionné parmi de multiples groupes de tailles de RBG et les multiples groupes de tailles de RBG représentent différentes granularités d'attribution de ressources.
 
6. Procédé selon la revendication 1, dans lequel
des bits valides dans les bits requis par les quatrièmes informations d'indication sous différentes BW de BWP sont approximatifs.
 
7. Procédé selon la revendication 1, dans lequel
la BS sélectionne la partie des BWP activées en fonction de l'une des informations suivantes :
une caractéristique de service d'un équipement utilisateur, UE, une condition de charge de l'UE, une condition de capacité de l'UE et un environnement de canal.
 
8. Procédé selon la revendication 1, 4 ou 5, dans lequel
la BS envoie au moins une des informations d'indication suivantes via un message de commande de ressources radio, RRC :
les premières informations d'indication, les deuxièmes informations d'indication, les cinquièmes informations d'indication et les sixièmes informations d'indication.
 
9. Procédé selon la revendication 1, dans lequel
la BS envoie les troisièmes informations d'indication et/ou les quatrièmes informations d'indication via un message d'informations de commande de liaison descendante, DCI.
 
10. Procédé de réception d'indication d'attribution de ressources, comprenant :

la réception, par un équipement utilisateur, UE, de premières informations d'indication envoyées par une station de base, BS, dans lequel les premières informations d'indication sont configurées pour indiquer un message de partie de bande passante, BWP, activée et le message de BWP activée comprend au moins des informations de bande passante, BW, de BWP (S202) ; et

la réception, par l'UE, de deuxièmes informations d'indication envoyées par la BS, dans lequel les deuxièmes informations d'indication sont configurées pour indiquer un ou plusieurs groupes de tailles de groupe de blocs de ressources, RBG, de premier niveau, chaque groupe de tailles de RBG de premier niveau comprend de multiples tailles de RBG de premier niveau et chaque taille de RBG de premier niveau correspond à différentes BW de BWP,

dans lequel il existe une relation de correspondance entre la taille de RBG de premier niveau et différentes BW de BWP (S204),

dans lequel le procédé comprend en outre :

la réception, par l'UE, de troisièmes informations d'indication envoyées par la BS, dans lequel les troisièmes informations d'indication sont configurées pour indiquer une partie des BWP activées sélectionnées parmi les BWP activées ; et

la réception, par l'UE, de quatrièmes informations d'indication envoyées par la BS, dans lequel les quatrièmes informations d'indication sont configurées pour indiquer une attribution de ressources et un nombre de bits requis par les quatrièmes informations d'indication sous différentes BWP activées est une valeur fixe, dans lequel le nombre des bits requis par les quatrièmes informations d'indication est déterminé selon la formule suivante :

ou

où G est la taille de RBG de premier niveau,

est une BW d'une i-ème BWP activée, n est un nombre des BWP activées, i et n sont des nombres entiers et P est la taille de RBG de second niveau ;

quand

est inférieur ou égal à 12, une valeur de la taille de RBG de second niveau est 1 ; et quand

est une autre valeur sauf 12, la valeur de la taille de RBG de second niveau est 2.


 
11. Procédé selon la revendication 10, dans lequel la relation de correspondance comprend : le fait qu'une valeur de la taille de RBG de premier niveau comprend au moins une valeur parmi 1, 2, 3, 4, 6, 8, 10, 11, 12 et 16 ;

lorsque la valeur de la taille de RBG de premier niveau est 1, le fait qu'une plage de BW de BWP d'une BWP activée correspond à des blocs de ressources, RB, en un nombre inférieur ou égal à une valeur parmi 31, 26 et 22 ;

lorsque la valeur de la taille de RBG de premier niveau est 2, le fait que la plage de BW de BWP de la BWP activée est de 32 à 62 RB ou de 27 à 62 RB ou de 23 à 44 RB ;

lorsque la valeur de la taille de RBG de premier niveau est 3, le fait que la plage de BW de BWP de la BWP activée est de 45 à 66 RB ;

lorsque la valeur de la taille de RBG de premier niveau est 4, le fait que la plage de BW de BWP de la BWP activée est de 63 à 124 RB ou de 67 à 132 RB ;

lorsque la valeur de la taille de RBG de premier niveau est 6, le fait que la plage de BW de BWP de la BWP activée est de 125 à 176 RB ou de 67 à 132 RB ;

lorsque la valeur de la taille de RBG de premier niveau est 8, le fait que la plage de BW de BWP de la BWP activée est de 177 à 248 RB ou de 125 à 248 RB ou de 125 à 220 RB ou de 125 à 227 RB ;

lorsque la valeur de la taille de RBG de premier niveau est 10, le fait que la plage de BW de BWP de la BWP activée est de 249 à 275 RB ou de 221 à 275 RB ou de 228 à 275 RB ;

lorsque la valeur de la taille de RBG de premier niveau est 11, le fait que la plage de BW de BWP de la BWP activée est de 249 à 275 RB ;

lorsque la valeur de la taille de RBG de premier niveau est 12, le fait que la plage de BW de BWP de la BWP activée est de 133 à 240 RB ; et

lorsque la valeur de la taille de RBG de premier niveau est 16, le fait que la plage de BW de BWP de la BWP activée est de 241 à 275 RB.


 
12. Dispositif d'indication d'attribution de ressources, appliqué à une station de base, BS, et comprenant :

un premier module d'envoi (62), configuré pour envoyer de premières informations d'indication, dans lequel les premières informations d'indication sont configurées pour indiquer un message de partie de bande passante, BWP, activée et le message de BWP activée comprend au moins des informations de bande passante, BW, de BWP ; et

un second module d'envoi (64), configuré pour envoyer de deuxièmes informations d'indication, dans lequel les deuxièmes informations d'indication sont configurées pour indiquer un ou plusieurs groupes de tailles de groupe de blocs de ressources, RBG, de premier niveau, chaque groupe de tailles de RBG de premier niveau comprend de multiples tailles de RBG de premier niveau et chaque taille de RBG de premier niveau correspond à différentes BW de BWP, dans lequel il existe une relation de correspondance entre la taille de RBG de premier niveau et différentes BW de BWP,

dans lequel le premier module d'envoi (62) est en outre configuré pour envoyer de troisièmes informations d'indication, dans lequel les troisièmes informations d'indication sont configurées pour indiquer une partie de BWP activées sélectionnées parmi des BWP activées ; et

le premier module d'envoi (62) est en outre configuré pour envoyer de quatrièmes informations d'indication, dans lequel les quatrièmes informations d'indication sont configurées pour indiquer une attribution de ressources et un nombre de bits requis par les quatrièmes informations d'indication sous différentes BWP activées est une valeur fixe, dans lequel le nombre des bits requis par les quatrièmes informations d'indication est déterminé selon la formule suivante :

ou

où G est la taille de RBG de premier niveau,

est une BW d'une i-ème BWP activée, n est un nombre des BWP activées, i et n sont des nombres entiers et P est la taille de RBG de second niveau ;

quand

est inférieur ou égal à 12, une valeur de la taille de RBG de second niveau est 1 ; et quand

est supérieur à 12, la valeur de la taille de RBG de second niveau est 2.


 
13. Dispositif de réception d'indications d'attribution de ressources, appliqué à un équipement utilisateur, UE, et comprenant :

un premier module de réception (72), configuré pour recevoir de premières informations d'indication envoyées par une station de base, BS, dans lequel les premières informations d'indication sont configurées pour indiquer un message de partie de bande passante, BWP, activée et le message de BWP activée comprend au moins des informations de bande passante, BW, de BWP ; et

un second module de réception (74), configuré pour recevoir de deuxièmes informations d'indication envoyées par la BS, dans lequel les deuxièmes informations d'indication sont configurées pour indiquer un ou plusieurs groupes de tailles de groupe de blocs de ressources, RBG, de premier niveau, chaque groupe de tailles de RBG de premier niveau comprend de multiples tailles de RBG de premier niveau et chaque taille de RBG de premier niveau correspond à différentes BW de BWP,

dans lequel il existe une relation de correspondance entre la taille de RBG de premier niveau et différentes BW de BWP et dans lequel :

le premier module de réception (72), configuré en outre pour recevoir de troisièmes informations d'indication envoyées par la BS, dans lequel les troisièmes informations d'indication sont configurées pour indiquer une partie de BWP activées sélectionnées parmi des BWP activées ; et

le premier module de réception (72), configuré en outre pour recevoir, par l'UE, de quatrièmes informations d'indication envoyées par la BS, dans lequel les quatrièmes informations d'indication sont configurées pour indiquer une attribution de ressources et un nombre de bits requis par les quatrièmes informations d'indication sous différentes BWP activées est une valeur fixe, dans lequel le nombre des bits requis par les quatrièmes informations d'indication est déterminé selon la formule suivante :

ou

où G est la taille de RBG de premier niveau,

est une BW d'une i-ème BWP activée, n est un nombre des BWP activées, i et n sont des nombres entiers et P est la taille de RBG de second niveau ;

quand

est inférieur ou égal à 12, une valeur de la taille de RBG de second niveau est 1 ; et quand

est une autre valeur sauf 12, la valeur de la taille de RBG de second niveau est 2.


 




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Cited references

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Patent documents cited in the description




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